A deployable bulk material distribution apparatus for discharging from a designated height an amount of a flowable bulk material into a discharge location is provided. In one embodiment, the apparatus comprises an auger section; a bucket elevator section configured so as to be movable between: an upright position; and a reclined position wherein the bucket elevator section is substantially reclined for transport; and a joint assembly coupling the exit aperture of the auger section to the boot inlet of the bucket elevator section so as to allow the flowable bulk material to move from the exit aperture to the boot inlet when the bucket elevator section is in the upright position, the joint assembly being rotatably coupled to the boot inlet. The auger section and container operable to freely move along the bucket elevator section when it is moved between the upright and reclined positions.

The invention relates to an apparatus for the single-track or multi-track conveying of objects along a conveying path extending in a conveying direction, wherein the conveying path for at least one track comprises at least one conveying device that takes over objects at the input side from a functional unit connected upstream and that transfers objects at the output side to a functional unit connected downstream; and wherein the conveying device as a whole and/or in an output-side end region is adjustable transversely to the conveying direction by means of an adjustment device such that the transverse position of objects to be transferred is changed within the respective track.

The invention relates to an apparatus for the single-track or multi-track conveying of objects along a conveying path extending in a conveying direction, wherein the conveying path for at least one track comprises at least one conveying device that takes over objects at the input side from a functional unit connected upstream and that transfers objects at the output side to a functional unit connected downstream; and wherein the conveying device as a whole and/or in an output-side end region is adjustable transversely to the conveying direction by means of an adjustment device such that the transverse position of objects to be transferred is changed within the respective track.

A portable multi-sectioned boom concrete conveyor assembly that includes a feeder conveyor configured to transport a construction material toward a distal end of the feeder conveyor and a main conveyor boom assembly including a plurality of main conveyor boom sections. The plurality of main conveyor boom sections may include a proximal main conveyor boom section and a distal main conveyor boom section that is rotatably coupled to one of the plurality of main conveyor boom sections about a revolution joint, has a second main conveyor belt spanning from a first end of the distal main conveyor boom section to a second end of the distal main conveyor boom section, and is operably configured to independently revolve approximately 360° about the revolution joint. The first and second main conveyor belts are operably configured to transport the construction material toward the second end of the distal main conveyor boom section.

A portable multi-sectioned boom concrete conveyor assembly that includes a feeder conveyor configured to transport a construction material toward a distal end of the feeder conveyor and a main conveyor boom assembly including a plurality of main conveyor boom sections. The plurality of main conveyor boom sections may include a proximal main conveyor boom section and a distal main conveyor boom section that is rotatably coupled to one of the plurality of main conveyor boom sections about a revolution joint, has a second main conveyor belt spanning from a first end of the distal main conveyor boom section to a second end of the distal main conveyor boom section, and is operably configured to independently revolve approximately 360° about the revolution joint. The first and second main conveyor belts are operably configured to transport the construction material toward the second end of the distal main conveyor boom section.

Described is a component (1) for powering robots, automation systems and the like which comprises, on a frame (2), a series of belts (3, 4) for conveying objects (9) designed to be gripped by a robot. The conveyor belts (3, 4) constitute a closed path and have a first belt (3) and at least a second belt (4) positioned in such a way that the objects (9) pass from the first belt (3) to the second belt (4) cyclically and continuously.

A conveyor lift assembly adapted for use on a conveyor assembly having a frame, and at least one main conveyor cylinder for moving the frame between a substantially horizontal position and an elevated position. The conveyor lift assembly includes a lower member disposed on the undercarriage of the conveyor assembly, an upper member adapted to be moved substantially vertically relative to the frame, and an actuator having a first end and a second end and being adapted to move between a retracted position and an extended position. The first end of the actuator is attached to the lower member and the second end is attached to the upper member, the actuator is adapted to move the upper member relative to the lower member, and the upper member is adapted contact the frame. A method for moving the frame between the substantially horizontal position and the elevated position.

A conveyor lift assembly adapted for use on a conveyor assembly having a frame, and at least one main conveyor cylinder for moving the frame between a substantially horizontal position and an elevated position. The conveyor lift assembly includes a lower member disposed on the undercarriage of the conveyor assembly, an upper member adapted to be moved substantially vertically relative to the frame, and an actuator having a first end and a second end and being adapted to move between a retracted position and an extended position. The first end of the actuator is attached to the lower member and the second end is attached to the upper member, the actuator is adapted to move the upper member relative to the lower member, and the upper member is adapted contact the frame. A method for moving the frame between the substantially horizontal position and the elevated position.

Embodiments of this invention relate to highwall mining, and more particularly to a launch vehicle adapted for use in highwall mining of downward angled seams of mineable material, such as coal. More specifically, the provided launch vehicle includes a substantially horizontally oriented control deck, a launch deck pivotally attached to the control deck, and a substantially horizontally oriented conveyor belt. A miner and at least one conveyor car are positioned on the launch deck while the launch deck is in a substantially horizontal orientation, then the launch deck is tilted upward relative to the conveyor belt to substantially match a planned entry dip angle of the seam to be mined. As the miner and at least one conveyor car advance into the seam, the launch deck is returned to a substantially horizontal orientation, an additional conveyor car is added to the launch deck, and the launch deck is again tilted to substantially match the entry dip angle of the seam to connect the additional conveyor car as the rearmost car in the conveyor train.

A conveyor assembly includes an extendable conveyor, a cradle configured to at least partially receive the extendable conveyor, a first conveyor that is movable between a first position and a second position, the first conveyor configured to receive a material from a first source, and second conveyor configured to receive a material from a second source. The extendable conveyor may be configured to pivot with respect to the cradle.